Bastille-Rousseau G, Yackulic C, Frair J, Cabrera F, Blake S.2016. Allometric and temporal scaling of movement characteristics in Galapagos tortoises. Journal of Animal Ecology 85(5): 1171–1181. https://doi.org/10.1111/1365-2656.12561

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---
title: "Movement ecology of *Chelonoidis porteri*"
author: "C. M. Ciafre"
output:
  html_document:
    df_print: paged
  html_notebook:
    df_print: paged
    highlight: zenburn
    number_sections: no
    rows.print: 10
    theme: journal
---
```{r setup, NOTICE USE of PACMAN, include=FALSE}
library(adehabitatHR) #for home range calculations
library(data.table) #manipulate S3 and S4 data tables
library(tidyverse) #for graphic output
library(ggfortify) #to allow ggplot2 to read spatial data
library(grid) #to add annotations to the output
library(move) #create movement data
library(moveVis) #visualize the movement data
library(OpenStreetMap) #for obtaining raster images
library(pbapply) #needed for progress bar
library(plotly) #for interactive xy plot
library(rgdal) #for converting spatial data
library(sp) #for converting spatial data

torts<-read.csv("Data/AllTortsUTM.csv", header=TRUE)
torts_blank <- torts[-c(6:9,20:21,25:33)]
data <- na.omit(torts_blank)
```


Bastille-Rousseau G, Yackulic C, Frair J, Cabrera F, Blake S.2016. Allometric and temporal scaling of movement characteristics in Galapagos tortoises. Journal of Animal Ecology 85(5): 1171–1181. https://doi.org/10.1111/1365-2656.12561

```{r}
# ggplot() +
#   geom_point(data=data,aes(location.long,location.lat,color=individual.local.identifier)) +
#   labs(x="Longitude", y="Latitude") +
#   guides(color=guide_legend("Identifier"))
```

```{r message=FALSE, warning=FALSE, include=FALSE}
lapply(split(data, data$individual.local.identifier),
       function(x)write.csv(x, file = paste(x$individual.local.identifier[1],".csv"), row.names = FALSE))
```

```{r}
files <- list.files(path = ".", pattern = " .*\\.csv", full.names = TRUE)
```

```{r echo=FALSE, message=FALSE, warning=FALSE}
utm_points <- cbind(data$utm.easting, data$utm.northing)
utm_locations <- SpatialPoints(utm_points, 
                               proj4string=CRS("+proj=utm +zone=15 +south +datum=WGS84"))
proj_lat.lon <- as.data.frame(spTransform(
  utm_locations, CRS("+proj=longlat +datum=WGS84")))
colnames(proj_lat.lon) <- c("x","y")
raster <- openmap(c(max(proj_lat.lon$y)+0.01, min(proj_lat.lon$x)-0.01), 
                  c(min(proj_lat.lon$y)-0.01, max(proj_lat.lon$x)+0.01), 
                  type = "bing")
raster_utm <- openproj(raster, 
                       projection = "+proj=utm +zone=15 +south +ellps=WGS84 +units=m +no_defs")
```

```{r echo=FALSE, fig.height=12, fig.width=12}
autoplot(raster_utm, expand = TRUE) + theme_bw() +
  theme(legend.position="bottom") +
  theme(panel.border = element_rect(colour = "black", fill=NA, size=1)) +
  geom_point(data=data, aes(utm.easting, 
                            utm.northing, 
                            color=individual.local.identifier), size = 3, alpha = 0.8) +
  theme(axis.title = element_text(face="bold")) + labs(x="Easting",
                                                       y="Northing") + 
  guides(color=guide_legend("Identifier"))
```



```{r echo=FALSE, message=FALSE, warning=FALSE}
mcp_raster <- function(filename){
  data <- read.csv(file = filename)
  x <- as.data.frame(data$utm.easting)
  y <- as.data.frame(data$utm.northing)
  xy <- c(x,y)
  data.proj <- SpatialPointsDataFrame(xy,data, proj4string = CRS("+proj=utm +zone=15 +south +ellps=WGS84 +units=m +no_defs"))
  xy <- SpatialPoints(data.proj@coords)
  mcp.out <- mcp(xy, percent=100, unout="ha")
  mcp.points <- cbind((data.frame(xy)),data$individual.local.identifier)
  colnames(mcp.points) <- c("x","y", "identifier")
  mcp.poly <- fortify(mcp.out, region = "id")
  units <- grid.text(paste(round(mcp.out@data$area,2),"ha"), x=0.85,  y=0.95,
                     gp=gpar(fontface=4, col="white", cex=0.9), draw = FALSE)
  mcp.plot <- autoplot(raster_utm, expand = TRUE) + theme_bw() + theme(legend.position="none") +
    theme(panel.border = element_rect(colour = "black", fill=NA, size=1)) +
    geom_polygon(data=mcp.poly, aes(x=mcp.poly$long, y=mcp.poly$lat), alpha = 0.4, fill="orange") +
    geom_point(data=mcp.points, aes(x=x, y=y)) + 
    labs(x="Easting (m)", y="Northing (m)", title=mcp.points$identifier) +
    theme(legend.position="none", plot.title = element_text(face = "bold", hjust = 0.5)) + 
    annotation_custom(units)
  mcp.plot
}

pblapply(files, mcp_raster)
```

```{r echo=FALSE, message=FALSE, warning=FALSE}
kde_raster <- function(filename){
  data <- read.csv(file = filename)
  x <- as.data.frame(data$utm.easting)
  y <- as.data.frame(data$utm.northing)
  xy <- c(x,y)
  data.proj <- SpatialPointsDataFrame(xy,data, proj4string = CRS("+proj=utm +zone=15 +south +ellps=WGS84 +units=m +no_defs"))
  xy <- SpatialPoints(data.proj@coords)
  kde<-kernelUD(xy, h="href", kern="bivnorm", grid=100)
  ver95 <- getverticeshr(kde, 95)
  ver75 <- getverticeshr(kde, 75)
  ver50 <- getverticeshr(kde, 50)
  kde.points <- cbind((data.frame(data.proj@coords)),data$individual.local.identifier)
  colnames(kde.points) <- c("x","y","identifier")
  kde.poly95 <- fortify(ver95, region = "id")
  kde.poly75 <- fortify(ver75, region = "id")
  kde.poly50 <- fortify(ver50, region = "id")
  units <- grid.text(paste(round(ver95$area,2)," ha"), x=0.85,  y=0.95,
                     gp=gpar(fontface=4, col="white", cex=0.9), draw = FALSE)
  kde.plot <- autoplot(raster_utm, expand = TRUE) + theme_bw() + theme(legend.position="none") +
    theme(panel.border = element_rect(colour = "black", fill=NA, size=1)) +
    geom_polygon(data=kde.poly95, aes(x=kde.poly95$long, y=kde.poly95$lat), alpha = 0.4, fill="red") +
    geom_polygon(data=kde.poly75, aes(x=kde.poly75$long, y=kde.poly75$lat), alpha = 0.4, fill="purple") +
    geom_polygon(data=kde.poly50, aes(x=kde.poly50$long, y=kde.poly50$lat), alpha = 0.4, fill="darkblue") +
    geom_point(data=kde.points, aes(x=x, y=y)) +
    labs(x="Easting (m)", y="Northing (m)", title=kde.points$identifier) +
    theme(legend.position="none", plot.title = element_text(face = "bold", hjust = 0.5)) + 
    annotation_custom(units)
  kde.plot
}

pblapply(files, kde_raster)
```

```{r echo=FALSE}
Mary <- read.csv("Mary .csv")
date <- as.POSIXct(strptime(as.character(Mary$timestamp),"%Y-%m-%d %H:%M:%S", tz="Asia/Bangkok"))
Mary$date <- date
Mary.reloc <- cbind.data.frame(Mary$utm.easting, Mary$utm.northing,
                                as.vector(Mary$individual.local.identifier),
                                as.POSIXct(date))
colnames(Mary.reloc) <- c("x","y","id","date")
trajectory <- as.ltraj(Mary.reloc, date=date, id="Mary")
sig1 <- liker(trajectory, sig2 = 58, rangesig1 = c(0, 5), plotit = FALSE)
opha.traj <- kernelbb(trajectory, sig1 = .1351, sig2 = 58, grid = 100)
bb_ver <- getverticeshr(opha.traj, 95)
bb_poly <- fortify(bb_ver, region = "id", 
                   proj4string = CRS("+proj=utm +zone=15 +south
                                     +ellps=WGS84 +units=m +no_defs"))
colnames(bb_poly) <- c("x","y","order","hole","piece","id","group")
# bb_image <- crop(opha.traj, bb_ver, 
#                  proj4string = CRS("+proj=utm +zone=15 +south 
#                                    +ellps=WGS84 +units=m +no_defs"))
bb_units <- grid.text(paste(round(bb_ver$area,2)," ha"), x=0.85,  y=0.95,
                      gp=gpar(fontface=4, col="white", cex=0.9), draw = FALSE)
bb.plot <- autoplot(raster_utm, expand = TRUE) + theme_bw() + theme(legend.position="none") +
  theme(panel.border = element_rect(colour = "black", fill=NA, size=1)) +
  geom_tile(data=opha.traj, 
            aes(x=opha.traj@coords[,1], y=opha.traj@coords[,2],
                fill = opha.traj@data$ud)) +
  geom_polygon(data=bb_poly, aes(x=x, y=y, group = group), color = "white", fill = NA) +
  scale_fill_viridis_c(option = "inferno") + annotation_custom(bb_units) +
  labs(x="Easting (m)", y="Northing (m)", title="Mary") +
  theme(legend.position="none", plot.title = element_text(face = "bold", hjust = 0.5))
bb.plot
```

```{r echo=FALSE, fig.height=8, fig.width=8}
data.t <- subset(data, individual.local.identifier!="Freddy V")

autoplot(raster_utm, expand = TRUE) + theme_bw() +
  theme(legend.position="bottom") +
  theme(panel.border = element_rect(colour = "black", fill=NA, size=1)) +
  geom_point(data=data.t, aes(utm.easting, utm.northing, color=as.integer(timestamp)), size = 3, alpha = 0.8) +
  theme(axis.title = element_text(face="bold")) + 
  scale_colour_gradient(low="blue", high="red" ) +
  labs(color="Date")
```






